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Effect of Halo Implant and Threshold Implant on Sub-Threshold Current and Substrate Current of MOSFET

Nitin Sachdeva*, Munish Vashishath**, P.K.Bansal***

* Assistant Professor, Department of Electronics Engineering, YMCAUST, Faridabad, India.

** Chairman and Professor, Department of Electronics Engineering, YMCAUST, Faridabad, India.

*** Professor, Department of Electronics Engineering, MMIT, Malout, India.

Periodicity:July - December'2017
DOI : https://doi.org/10.26634/jes.6.1.13893

Abstract

In this paper, the concentration of halo implant and threshold implant has been varied to estimate the sub-threshold leakage current and substrate current of the MOSFET. A lightly doped NMOS has been designed having channel length of 40 nm in Athena and simulated in Atlas of Silvaco TCAD tool. After simulation results, it has been observed that as the threshold implant and halo implant concentrations are increased, there is a decrease in both off-state sub-threshold leakage and substrate current as required for an ideal MOSFET. Other parameters like ON current, DIBL, and threshold voltage have also been estimated.

Keywords

MOSFET, SILVACO, Athena, Atlas ,TCAD.

How to Cite this Article?

Sachdeva, N., Vashishath, M., and Bansal, P. K. (2017). Effect of Halo Implant and Threshold Implant on Sub-Threshold Current and Substrate Current of MOSFET. i-manager's Journal on Embedded Systems, 6(1), 23-29. https://doi.org/10.26634/jes.6.1.13893

References

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[8]. Sachdeva, N., Vashishath, M., & Bansal, P. K. (2017a). Effect of Various Parameters on Threshold Voltage of Virtually Fabricated Lightly Doped PMOS Device. Journal of VLSI Design Tools & Technology, 7(3), 13-20.

[9]. Sachdeva, N., Vashishath, M., & Bansal, P. K. (2017b). Analytical Modeling and Simulation of OFF-State Leakage Current for Lightly Doped MOSFETs. Journal of Nano-and Electronic Physics, 9(6), 6009-1.

[10]. Silvaco International. (1995). Silvaco: Virtual Wafer Fab. Retrieved from http://www.silvaco.com/products/ vwf/vwf.html

[11]. Zabeli, M., Caka, N., Limani, M., & Kabashi, Q. (2008). The threshold voltage of MOSFET and its influence on digital circuits. Recent Advances in Systems, Communications & Computers (pp. 266-271). WSEAS.

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Effect of Halo Implant and Threshold Implant on Sub-Threshold Current and Substrate Current of MOSFET

Abstract

Keywords

How to Cite this Article?

References

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